First, it means that we could see the 3D printing process used to create drugs that are easier to consume and more effective to use as part of a regular medication schedule. “By combining 3D printing technology with a highly-prescribed epilepsy treatment, Spritam is designed to fill a need for patients who struggle with their current medication experience,” according to Don Wetherhold, CEO of Aprecia.

As a result of Aprecia’s proprietary 3D printing process known as the ZipDose Technology platform, the physical composition of the Spritam pill can be made more porous than typical pills, meaning that it dissolves almost instantaneously when added to a liquid. It literally melts in your mouth with just a sip of water or other liquid, making it easier to swallow. Aprecia refers to these new 3D-printed pills as “fast-melt,” to differentiate them from tablets and capsules.

Moreover, since the active ingredients are being added via 3D printers, Aprecia Pharmaceuticals has the ability to offer high dosages up to 1,000 mg with the knowledge that every dose will be exactly the same. That implies that we could soon seen the introduction of bespoke medications and drugs that have been customizable for specific patients and users – no more of the one-size-fits all approach to medication. With 3D printing, each dosage can be individually measured and then printed.

Later, that development could potentially lead to the biggest breakthrough of all – a tectonic shift in the way patients and doctors think about medicine. In a 2012 TED Talk, Lee Cronin of the University of Glasgow describes a new approach to 3D printing that could potentially enable patients to print their own medicines at home. What’s needed, he explains, is a universal set of “chemical inks” as well as a way to 3D print the lab instruments and these chemical inks at the same time. In essence, this would let 3D printers catalyze the chemical reactions in order to print drugs at the point of need.

As a result, the pharmaceutical industry could eventually witness a transition from prescriptions to algorithms. Doctors could hand off an algorithm for patients to go print at home on a 3D printer rather than jotting down “take 2 and call me in the morning” on a sheet of paper. These algorithms would include information about the set of chemical inks needed to print the medicine as well as the molecular blueprints.

3D printing might also lead to big shifts in pharmaceutical R&D, making it cheaper because the whole process of testing drugs would become more efficient. While the home 3D printing of drugs may not be possible any time soon, it might be possible to 3D print sample tissues and organs for drug testing purposes. Imagine testing out drugs on 3D human organs instead of on animals or synthetic models. And 3D printing might allow for new types of compounds and medications, based on new geometries and configurations made possible with 3D printing.

Of course, the big wildcard in all this is the approval process of the FDA. Yes, this is the same FDA that sometimes gets blamed for the long process of bringing new drugs to market quickly and efficiently. Add in the “gee whiz” aspect of 3D printing, and it’s easy to see potential regulatory nightmares facing other FDA approvals.

We may never do away with the need for the corner pharmacy to fill prescriptions – but 3D printers could fundamentally change the way patients take certain types of medicine. 3D printers could make possible a world of bespoke medicine in which patients play an active role in bringing their own custom-designed pills to market.

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